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A bisulfite-assisted and ligation-based qPCR amplification technology for locus-specific pseudouridine detection at base resolution

Xin Fang, Ruiqi Zhao, Yafen Wang, Mei Sun, Jin Xu, Shengrong Long, Jing Mo, Hudan Liu, Xiang Li, Fang Wang, Xiang Zhou, Xiaocheng Weng

2024Nucleic Acids Research13 citationsDOIOpen Access PDF

Abstract

Over 150 types of chemical modifications have been identified in RNA to date, with pseudouridine (Ψ) being one of the most prevalent modifications in RNA. Ψ plays vital roles in various biological processes, and precise, base-resolution detection methods are fundamental for deep analysis of its distribution and function. In this study, we introduced a novel base-resolution Ψ detection method named pseU-TRACE. pseU-TRACE relied on the fact that RNA containing Ψ underwent a base deletion after treatment of bisulfite (BS) during reverse transcription, which enabled efficient ligation of two probes complementary to the cDNA sequence on either side of the Ψ site and successful amplification in subsequent real-time quantitative PCR (qPCR), thereby achieving selective and accurate Ψ detection. Our method accurately and sensitively detected several known Ψ sites in 28S, 18S, 5.8S, and even mRNA. Moreover, pseU-TRACE could be employed to measure the Ψ fraction in RNA and explore the Ψ metabolism of different pseudouridine synthases (PUSs), providing valuable insights into the function of Ψ. Overall, pseU-TRACE represents a reliable, time-efficient and sensitive Ψ detection method.

Topics & Concepts

PseudouridineBiologyRNABisulfiteComputational biologyMolecular biologyGeneGene expressionGeneticsDNA methylationUridineRNA modifications and cancerCancer-related molecular mechanisms researchRNA and protein synthesis mechanisms